A Land Fit for Heroes. A Social, Cultural and Environmental History of Soldier Settlement in New South Wales, 1916-1939. The digger has an iconographic status in Australian society; thousands of families have charted the service records of relatives who served in the first AIF. This project will recover the returned soldier as important an historical entity as the men (and women) who went to war. It will look at ways our society tried to recover from the trauma of war, examine our veterans' r ....A Land Fit for Heroes. A Social, Cultural and Environmental History of Soldier Settlement in New South Wales, 1916-1939. The digger has an iconographic status in Australian society; thousands of families have charted the service records of relatives who served in the first AIF. This project will recover the returned soldier as important an historical entity as the men (and women) who went to war. It will look at ways our society tried to recover from the trauma of war, examine our veterans' return to Australia and their difficult readjustment to civil society. Soldier settlers faced a new battle in opening up the land. Like many in regional NSW today, they struggled against isolation, drought and financial hardship. This project will evaluate the role soldier settlement played in populating remote districts and assess its long-term environmental costs.Read moreRead less
Federalism in Australian schooling: Its impact upon quality and equity. The project is designed to support the objectives for schooling in Australia that have been identified by the Council of Australian Governments. These objectives are in the face of growing inequities in the distribution of educational resources, growing concentrations of students with high levels of educational needs, and imbalances in the distribution of resources across key stages, especially in early childhood education. ....Federalism in Australian schooling: Its impact upon quality and equity. The project is designed to support the objectives for schooling in Australia that have been identified by the Council of Australian Governments. These objectives are in the face of growing inequities in the distribution of educational resources, growing concentrations of students with high levels of educational needs, and imbalances in the distribution of resources across key stages, especially in early childhood education. By examining the ways in which federalism contributes to the structural barriers to these objectives and by developing and validating a set of structural reforms the project will contribute to these national objectives. Read moreRead less
Unravelling how aquatic coastal networks regulate nitrogen removal . The aim of this project is to determine the nitrogen removal pathways of the coastal zone using a number of innovative field and modelling approaches. Little is known about how the complex coastal landscape controls trade-offs that maximise nitrogen removal but minimise nitrous oxide (a potent greenhouse gas) emissions. The outcomes of this study will significantly advance our understanding of the coastal zone in regional and g ....Unravelling how aquatic coastal networks regulate nitrogen removal . The aim of this project is to determine the nitrogen removal pathways of the coastal zone using a number of innovative field and modelling approaches. Little is known about how the complex coastal landscape controls trade-offs that maximise nitrogen removal but minimise nitrous oxide (a potent greenhouse gas) emissions. The outcomes of this study will significantly advance our understanding of the coastal zone in regional and global nitrogen budgets. This will provide significant benefits such as a new science-based quantitative framework to facilitate best practice management to reduce terrestrial nitrogen loads and associated downstream impacts such as eutrophication, and reduce nitrous oxide emissions and associated global warming.
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From prehistory to history: landscape and cultural change on the South Alligator River, Kakadu National Park. This project explores the archaeology, history and palaeoecology of the Kakadu floodplains to better understand social and environmental changes that have taken place in this landscape from the mid-Holocene to historical times. The outcome will be a contextualised understanding of potential climate change impacts against a history of past change.
Will East Coast Lows change in frequency or intensity in the future? East Coast Lows, the largest storms on the south-east coast of Australia, produce both large benefits and losses for this highly populated region of the country. An urgent national priority exists to understand the driving mechanisms for these events and to quantify how the frequency and intensity of these systems will change due to climate change.
Megadrought likelihood and its water resource impacts in Australia. This interdisciplinary project plans to assemble a world-class team of hydrologists, climate scientists and water managers to investigate the history and future risk of decadal to multidecadal droughts (megadroughts). Despite Australia’s vulnerability to water scarcity, the likelihood of persistent megadroughts has not been assessed in Australia. This has resulted in inadequate capacity to prepare for and adapt to megadrought un ....Megadrought likelihood and its water resource impacts in Australia. This interdisciplinary project plans to assemble a world-class team of hydrologists, climate scientists and water managers to investigate the history and future risk of decadal to multidecadal droughts (megadroughts). Despite Australia’s vulnerability to water scarcity, the likelihood of persistent megadroughts has not been assessed in Australia. This has resulted in inadequate capacity to prepare for and adapt to megadrought under future climate change. For the first time, palaeoclimate reconstructions and climate change projections will be used to constrain future hydroclimatic variability, advancing the decision-making capacity of Australian water resource managers.Read moreRead less
Reconstructing millennial-scale streamflow variability to assess near-future risks to water-generated renewable energy. Hydroelectric power is a key component of Australia's national renewable energy policy. The project will combine Hydro Tasmania's water supply and distribution network with historical reconstructions of streamflow variability to conduct stress tests of future water supplies and hydroelectric generating capacity for the Australian power grid.
Geodetic determination of the amount and spatial-scale of land subsidence and/or uplift in Australia. Heights can change with time, although most users assume that they are static quantities. Geodetic techniques will be employed to produce a vertical velocity model to make time-varying heights consistent and also to correct sea level change estimates at tide-gauges installed on land, that is either sinking or rising.
Evaluating the weather in climate models - the relationship of dynamics and rainfall over Australia in current and future climates. Climate change will be experienced by society as a change in the day-to-day weather. This project will investigate the capabilities of modern climate models in simulating the weather with a particular focus on rainfall, and will provide guidance to the use of these models in projections of the future of Australia's climate.
Geodetic and hydrogeological investigations of groundwater abstraction from confined aquifers: elastic response, heights, and sea level change. Parts of Perth are subsiding by as much as 5 millimetres (mm) per year, thus accelerating sea level rise relative to the land from 3 mm per year to 8 mm per year. The subsidence is most likely due to increased groundwater abstraction. This project aims to extend subsidence mapping in time and space using satellite-borne synthetic aperture radar, calibrat ....Geodetic and hydrogeological investigations of groundwater abstraction from confined aquifers: elastic response, heights, and sea level change. Parts of Perth are subsiding by as much as 5 millimetres (mm) per year, thus accelerating sea level rise relative to the land from 3 mm per year to 8 mm per year. The subsidence is most likely due to increased groundwater abstraction. This project aims to extend subsidence mapping in time and space using satellite-borne synthetic aperture radar, calibrated by complementary geodetic techniques, and coupled with new hydrogeological inputs from the Western Australian Department of Water. The research aims to provide science-based information to planners and managers on coastal vulnerability and determine the land response to groundwater abstraction. This will also allow for the correction of sea level change measurements from tide gauges.Read moreRead less